STM32F373V8T6 STMicroelectronics, STM32F373V8T6 Datasheet - Page 66
STM32F373V8T6
Manufacturer Part Number
STM32F373V8T6
Description
ARM Microcontrollers - MCU 32-Bit ARM Cortex M4 72MHz 64kB MCU FPU
Manufacturer
STMicroelectronics
Datasheet
1.STM32F372CCT6.pdf
(128 pages)
Specifications of STM32F373V8T6
Product Category
ARM Microcontrollers - MCU
Rohs
yes
Core
ARM Cortex M4F
Processor Series
STM32F373xx
Data Bus Width
32 bit
Maximum Clock Frequency
72 MHz
Program Memory Size
64 KB
Data Ram Size
16 KB
On-chip Adc
Yes
Operating Supply Voltage
2.4 V to 3.6 V
Operating Temperature Range
- 40 C to + 85 C
Package / Case
LQFP-100
Mounting Style
SMD/SMT
A/d Bit Size
16 bit
A/d Channels Available
1
Interface Type
CAN, I2C, SPI, USART, USB
Length
14 mm
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Number Of Programmable I/os
84
Number Of Timers
2
On-chip Dac
Yes
Program Memory Type
Flash
Supply Voltage - Max
3.6 V
Supply Voltage - Min
2.4 V
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Electrical characteristics
Caution:
66/128
I/O system current consumption
The current consumption of the I/O system has two components: static and dynamic.
I/O static current consumption
All the I/Os used as inputs with pull-up generate current consumption when the pin is
externally held low. The value of this current consumption can be simply computed by using
the pull-up/pull-down resistors values given in
For the output pins, any external pull-down or external load must also be considered to
estimate the current consumption.
Additional I/O current consumption is due to I/Os configured as inputs if an intermediate
voltage level is externally applied. This current consumption is caused by the input Schmitt
trigger circuits used to discriminate the input value. Unless this specific configuration is
required by the application, this supply current consumption can be avoided by configuring
these I/Os in analog mode. This is notably the case of ADC and SDADC input pins which
should be configured as analog inputs.
Any floating input pin can also settle to an intermediate voltage level or switch inadvertently,
as a result of external electromagnetic noise. To avoid current consumption related to
floating pins, they must either be configured in analog mode, or forced internally to a definite
digital value. This can be done either by using pull-up/down resistors or by configuring the
pins in output mode. Under reset conditions all I/Os are configured in input floating mode -
so if some inputs do not have a defined voltage level then they can generate additional
consumption. This consumption is visible on V
some I/Os are powered from SDADCx supply (all I/Os which have SDADC analog input
functionality).
I/O dynamic current consumption
In addition to the internal peripheral current consumption (see
consumption), the I/Os used by an application also contribute to the current consumption.
When an I/O pin switches, it uses the current from the MCU supply voltage to supply the I/O
pin circuitry and to charge/discharge the capacitive load (internal or external) connected to
the pin:
where
The test pin is configured in push-pull output mode and is toggled by software at a fixed
frequency.
I
V
f
C is the total capacitance seen by the I/O pin: C = C
C
SW
SW
DD
S
is the PCB board capacitance including the pad pin.
is the current sunk by a switching I/O to charge/discharge the capacitive load
is the I/O switching frequency
is the MCU supply voltage
Doc ID 022691 Rev 3
I
SW
=
V
DD
DD
Table 52: I/O static
supply and also on V
f
SW
C
INT
+ C
Table 36: Peripheral current
EXT
characteristics.
+ C
DDSDx
S
supply because
STM32F37x
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